1. Elements of Liner board
Strength required to add to the column strength
Good print characteristics
A degree of water resistance
Ability to bond quickly to the medium.
Ram Kumar Sunkara

2. Elements of twin layer Liner
Top outside layer, around 30% of total thickness. Processed for
Smoothness
Appearance
Water resistance
Base layer, around 70% of total thickness. Processed for
Strength
Slightly rougher and more absorptive.
Ram Kumar Sunkara

3. Elements of medium
Strength required to form strong arches and columns.
Good formability.
Ability to bond to linerboard at higher speed.
Elements of the medium that must be controlled
Heat and Moisture.
Ram Kumar Sunkara

4. Key characteristics of Liner
Moisture
Basis weight or GSM
Sizing
Bursting strength
Compression resistance – RCT / SCT
Double fold
Ram Kumar Sunkara

5. Key characteristics of Liner
Porosity
Smoothness
Caliper
Internal bond
Stretch
Ram Kumar Sunkara

6. Key characteristics of medium
Water absorption
Porosity
Moisture content
Flat crush
Tensile strength
Ram Kumar Sunkara

7. Key characteristics of medium
Stretch
Formation
Caliper and Bulk
Basis weight, and
Compression
Ram Kumar Sunkara

8. Moisture content
Liner moisture content should be uniform throughout the roll.
Both in MD (machine direction) and CD (cross direction)
It should be neither too low nor too high and should vary relatively little from roll to roll.
Ram Kumar Sunkara

9. Moisture – Potential problems
Moisture variation leads to warping of the combined board.
It can affect bond formation between flute tips and the facings.
It can effect the folding properties of the combined board.
Very low moisture content can retard the receptivity of liner to adhesive causing problems on single facer.
Ram Kumar Sunkara

10. Moisture – Potential problems
Very low moisture in liner can lead to score line cracking.
Very high moisture can lead to excessive CD shrinkage.
Roll to roll moisture variation can cause board warp.
CD moisture streaks can cause ‘S’ warp and blisters.
Low moisture can lead to web breaks.
Ram Kumar Sunkara

11. Basis weight – Potential problems
Non-uniform basis weight leads winding quality of the paper roll.
Weight variation of container.
Affects the liner meter-age in production.
Ram Kumar Sunkara

12. Sizing
Sizing is a characteristic pertaining to liner’s ability to resist water penetration and adsorption.
TAPPI – T 441 test method is used to quantify the degree of sizing in liner.
Most adhesives used in corrugated box manufacturing are water based, thus the rate at which liner absorbs water can affect the quality of bonding.
Ram Kumar Sunkara

13. Sizing – Potential problems
If liners are slack sized (high Cobb), it may dewater corrugating adhesives before the gel temp is reached, resulting in a weak “chalky” bond.
If liners are hard sized (low Cobb), it may inhibit penetration of the adhesive into the fiber structure resulting in a poor bond with little fiber pull or tear.
Ram Kumar Sunkara

14. Sizing – Potential problems
Considerably more amount of ink will be required on high Cobb liner to achieve the same color density.
If liner Cobb is very low, we may require to reduce the speed of printing machine to avoid smearing of ink.
Moisture is higher in high Cobb paper as compared to regular Cobb paper at the same humidity.
Ram Kumar Sunkara

15. Bursting strength
Bursting strength is a measure of the force required to break through a given area of the board as pressure is applied to one side.
Bursting strength is also referred to as “Mullen”
The bursting strength of liner has no direct effect on combing the board or in converting operations.
Ram Kumar Sunkara

16. B.S – Potential problems
The bursting strength of corrugated board is a direct function of the liner bursting strength, thus B.S below specified value for liner may result in corrugated board that fails to meet grade requirements.
Most impact is on “COST”
Ram Kumar Sunkara

17. Compression resistance
Compression resistance correlates with the vertical stacking strength potential of the corrugated boxes.
There are two commonly used methods for measuring compression resistance in liner
RCT (Ring crush test)
SCT or STFI (Short span compression test)
Ram Kumar Sunkara

18. Compression resistance
RCT or SCT value has no direct effect on combined board or converting operations.
Failure to meet specified minimum RCT or SCT values on liner will result in boxes that will not meet stacking strength expectations.
Ram Kumar Sunkara

19. Porosity
Porosity of liner affects the rate at which air, water vapor and to some extent liquids will pass through or will be absorbed by the liner.
Porosity can have an effect on corrugator operations by affecting the rate at which moisture, in form of water vapor, can be removed from liners or how receptive the liners are to adhesive.
Ram Kumar Sunkara

20. Porosity
It can affect converting operations with respect to ink absorption rates.
It can affect vacuum type box set up equipment and case sealing operations.
Low porosity create more difficulty in removing excess moisture on the corrugator pre-heaters because the low porosity inhibits the movement of water vapor through the liner.
Ram Kumar Sunkara

21. Porosity
Low porosity also inhibit liquid penetration into the surface, leading to bonding problems particularly at the single facer.
Or to ink penetration into liner leading to slowing down the machine to avoid smearing.
On folder gluer, due to adhesive hold out more time is need to press down.
Ram Kumar Sunkara

22. Porosity High porosity liners can create
Corrugator bonding problems
Variation from the color expected of a liquid ink.
Glueability problem on folder gluer through excessive absorption of glue before closure takes effect.
Excessive air flow through the high porosity liner inhibits the creation of sufficient suction causing problems in vacuum setup equipments.
Ram Kumar Sunkara

23. Smoothness
The smoothness of liner surface influences the ability of the corrugated converter to print on the surface.
Rough linerboard surface leads to printing definition issue as well as ink coverage issue.
Ram Kumar Sunkara

24. Smoothness
Due to the uneven surface of the liner we have increase printing pressure leading to loss of corrugated board caliper and excessive distortion of the printing plates.
Ram Kumar Sunkara

25. Caliper Variation in CD caliper leads issues corrugator operations.
Uneven caliper of liner leads to poorly wound paper roll and varying roll hardness leading to varying web tension as rolls unwind causing board warp.
Ram Kumar Sunkara

26. Internal bond strength
Internal bond strength is a measure of tensile strength of liner in the ‘z’ direction, i.e. perpendicular to plane.
There are several test methods to measure internal bond strength –
‘ZDT’ method using TAPPI – T 541
Scott bond tester using TAPPI – T 403
Mullen ply bond tester using TAPPI – T 522
Ram Kumar Sunkara

27. Internal bond strength
The impact of low internal bond strength is felt more at the time of using corrugated boxes rather than during production time.
Low internal bond will lead to weakness of glued manufacturers joint.
Low internal bond leads to peeling problems on the liner surface due to frictional forces.
Ram Kumar Sunkara

28. Ram Kumar Sunkara

29. Ram Kumar Sunkara

30. Ram Kumar Sunkara

31. Double fold and stretch
There two types of score line cracking in CD direction. That is along the flute direction.
Score cracking or rupture: In this case the liner split completely exposing flute in segments or continuously.
Checking: Incomplete split not all the way through the outer liner. That is flute is not exposed. Only the outer ply of the twin layer test liner splits.
Ram Kumar Sunkara

32. Score line cracking
Ram Kumar Sunkara

33. Score line cracking
Ram Kumar Sunkara

34. Score line cracking
Ram Kumar Sunkara

35. Score line cracking
During folding the single face (2 ply) forms an anvil about which double face liner is “Stretched” and “bent”.
Due to this stretching and bending of double facer liner induces a significant types of strains as follows:
Direct tension strains.
Bending strains.
Shear strains.
Ram Kumar Sunkara

36. Score line cracking
Cracking occurs when the tensile strains due to the bending and direct tension in the outer plies of double facer liner exceed the allowable stretch in those plies.
What this means is that tensile load – elongation characteristic of the double face liner are of importance as a consequence.
Ram Kumar Sunkara

37. Score line cracking
Cracking occurs when the tensile strain in the outer ply exceeds the allowable stretch in those plies.
For eg, liner made on twin wire, if the outer ply is made of fibre which has high extensibility then such liner does not exhibit combined board cracking.
Ram Kumar Sunkara

38. Score line cracking
It exactly opposite when higher content of short fibre used in outer ply, the combined board exhibits increases risk of cracking.
Ram Kumar Sunkara

39. Liner Cracking angle
There is a parameter called as “Liner cracking angle” and there is very good correlation between liner cracking angle and the degree of combined board cracking.
It is observed that there nearly zero chance that score cracking occurs when liner cracking angle is more than 125 degrees.
Ram Kumar Sunkara

40. Liner Cracking Angle
When this angle lies between 100 to 125 degrees there is a chance that board will show cracking depending on the CMT value of the fluting.
When the angle is below 100 it is very high risk that score line cracking will occur.
Ram Kumar Sunkara

41. Liner Cracking Angle
If this angle is below 75 degrees it is fit case for score line cracking to occur.
It is to be noted that as the GSM increases the liner cracking angle decreases.
The Liner cracking angle depends on double fold and MD stretch.
Liner exhibiting higher MD stretch shows lower score line cracking tendency.
Ram Kumar Sunkara

42. Key characteristics of medium
Water absorption
Porosity
Moisture content
Flat crush
Tensile strength
Stretch
Formation
Caliper, basis weight, and compression
Ram Kumar Sunkara

43. Water absorption – Medium
Water absorption is the rate at which water is absorbed by the medium.
Water drop test described in TAPPI – T 819 is recommended test method. There are other methods also.
Absorptivity influences the ability of medium to accept water from –
Steam showers
Adhesives
Ram Kumar Sunkara

44. Water absorption - Medium
High absorptivity causes poor bonding due to excess absorption of water from adhesive by medium before the gel temp is reached.
Low absorptivity causes poor bonding due to lack of penetration of the adhesive into medium.
Low absorptivity also inhibit penetration by steam showers causing problems with flute formation.
Ram Kumar Sunkara

45. Porosity - Medium
Although porosity is a measure of air resistance, its influence on medium is similar to water absorption.
Very Low porosity of medium affects the runnability on corrugator.
Very Low porosity makes it difficult for moisture vapor to penetrate, inhibiting the softening of medium, which is necessary for good flute formation.
Ram Kumar Sunkara

46. Porosity - Medium
Very high porosity indicates an open sheet that can allow too rapid penetration of water from adhesive resulting in poor bonding.
This will result in high adhesive consumption as the operator try to compensate for this problem. In turn leading to other issues like warp.
Ram Kumar Sunkara

47. Moisture content - Medium
The moisture content of medium directly affects its ability to achieve good flute formation.
Dry medium does not allow penetration readily leading to poor bonding in single facer.
Dry medium exhibits tendency to form high-low flutes as well as fractured flutes.
Ram Kumar Sunkara

48. Flat crush of medium
Flat crush of medium referred to as CMT value (concora medium test) measures the resistance to the crushing of laboratory fluted strip of medium.
Test method used is TAPPI – T 809
The most important characteristics of corrugated board is rigidity of the fluted structure and this is influenced by CMT value.
Ram Kumar Sunkara

49. Flat crush of medium
CMT value provides a lab procedure to predict the flat crush resistance of the corrugated board.
Very low CMT values results in loss of caliper of the board during converting operations leading to loss of stacking strength of box.
Very high CMT values causes flute formation problems or score line cracking problems.
Ram Kumar Sunkara

50. Tensile Strength
Tensile strength is the strength of paper under tension.
TAPPI – T 494 is the test method for determining the tensile strength.
Tensile strength affects the ability of medium to withstand
The stress of flute formation
Resist tearing and breaking from acceleration in single facer.
Ram Kumar Sunkara

51. Tensile Strength Very low MD tensile strength lead to web breaks.
Low MD tensile strength leads to high-low flute formation and fractured flutes.
Ram Kumar Sunkara

52. Stretch
Stretch is the maximum tensile strain developed in a test specimen before rupture.
TAPPI – T 494 test method used for tensile strength is used for stretch.
Stretch influences the flute formation characteristics of medium.
High stretch values decrease high-low flutes and help in higher running speeds
Ram Kumar Sunkara

53. Formation
Formation is the measure of the uniformity of fiber distribution.
There is no TAPPI test method for this property.
Poor formation contribute to the development of high-low flutes and fractured flutes.
Better formation helps in achieving higher bond speeds of single facer.
Ram Kumar Sunkara

54. Caliper, Basis weight, Compression
It is similar to what we have discussed for liners.
Ram Kumar Sunkara